Parallax Luminosity and mass functions - a few basic facts Kinematics of the solar neighborhood Asymmetric drift Thin disk, thick disk Open and globular.

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Presentation transcript:

Parallax Luminosity and mass functions - a few basic facts Kinematics of the solar neighborhood Asymmetric drift Thin disk, thick disk Open and globular clusters - metallicity, age, distribution, motion

Step number one: measure the parallax (Hipparcos satellite, ) measure the apparent magnitude m. This could be done for 0.12 mln bright stars, with positional accuracy ~milliarcsec (1 milliarcsec = 1/1000 seeing disk) Step number two: derive distance from (d / 1pc) = (1” / parallax) derive the absolute magnitude from distance modulus m - M = 5 log (d/ 10pc) = 5 log (0.1” / parallax) This gave accurate distances to ~few*100 pc.

Luminosity function --> initial luminosity function --> ---> initial mass function. One starts from the histogram of absolute magnitude M, which is correlated with mass

M*(Salpeter IMF) The most numerous stars in the Galaxy are small Brown dwarfs Frequency of stars with different masses = a power-law with exponent (index) -2.35

Thin and thick disks of the Galaxy

Vertical velocity w.r.t. sun (W) as a function of stellar age: stars are born in a thin disk with small W; old stars are in a thick disk.

The Bottlinger diagram for 200 main-sequence star from the solar neighborhood U = radial velocity difference w.r.t. the sun V = tangential velocity diff. gc V sun V* U=U* - U sun V=V* - V sun gc = Galactic center in general (U,V,W) V <0 U>0 or <0 - pop I objects similar to the sun Retrograde prograde orbits

Open clusters - e.g., Pleiades, Hyades 100 Myr 16 Myr Foreground gas nebulae (Pop I)

47 Tucanae is the second brightest globular cluster. It contains ~1 mln star. It can only be seen from the Southern Hemisphere. This image is 34 arcmin across, ~ 0.56 degrees (comparable with Moon, Sun). The infrared colors of all these stars are very similar.

Globular clusters - e.g. omega Centauri, 47 Tucanae (Pop II) Connection between kinematics and geometry: thick disk of high-metallicity globular clusters (left-hand panel) is made of objects on low-inclination, nearly-circular orbits the system has some prograde rotation. Spherical system (right panel) has completely disorganized motions, no rotation on average; some clusters have prograge, some retrograde motion, Orbits are highly inclined. thick disk spherical system

Age, distance, metallicity are varied in models until the predicted H-R diagram (below) matches the observations (above). For instance, 47 Tuc has [Fe/H] = and age ~12 Gyr M30 has [Fe/H] = and age ~14 Gyr One also uses RR Lyr variables (pulsating low-mass stars with L~50 Lsun) as standard candles